Anatomic Variability of the Morphometric Parameters of the Fourth Ventricle of the Brain

Overview

Journal J Neurol Surg B Skull Base

Publisher Thieme

Date 2018 Jun 6

PMID 29868328

Citations 3

Authors

Iuliia Zhuravlova

Maryna Kornieieva

Erik Rodrigues

Affiliations

Soon will be listed here.

Abstract

The defining of the normal parameters of spacious relations and symmetry of the ventricular system of the brain depending on the gender and age is currently one of the topical research problems of clinical anatomy. The present research aims to identify the correlation between the morphometric parameters of the fourth ventricle of the brain and the shape of the skull in middle aged people. This is a prospective cohort study. This study was set at the Trinity School of Medicine. A total of 118 normal computed tomography scans of the head of people aged from 21 to 86 years (mean age-48.6 years ± 17.57) were selected for the study. The anteroposterior, transverse diameters, and height of the fourth ventricle were measured and compared in dolichocranial, mesocranial, and brachycranial individuals. The study has shown the presence of a statistically significant difference between morphometric parameters of the fourth ventricle of the brain in dolichocranial, mesocranial, and brachycranial individuals. The morphometric parameters of the fourth ventricle of the brain, such as height, anteroposterior, and transverse diameters, depend on the individual anatomic variability of the skull shape and gender.

Citing Articles

The Anatomic Variability of the Lateral Ventricles of the Human Brain Depending on Age and Sex.

Zhuravlova I, Montgomery A Cureus. 2023; 15(9):e45915.

PMID: 37885552 PMC: 10599271. DOI: 10.7759/cureus.45915.

Anatomic Variability of the Morphometric Parameters of the Third Ventricle of the Brain and Its Relations to the Shape of the Skull.

Zhuravlova I, Kornieieva M J Neurol Surg B Skull Base. 2021; 82(Suppl 3):e315-e320.

PMID: 34306955 PMC: 8289542. DOI: 10.1055/s-0040-1701527.

Neuroharmony: A new tool for harmonizing volumetric MRI data from unseen scanners.

Garcia-Dias R, Scarpazza C, Baecker L, Vieira S, Pinaya W, Corvin A Neuroimage. 2020; 220:117127.

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